IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0893890
(2004-07-20)
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우선권정보 |
DE-0002401 (2002-01-21) |
발명자
/ 주소 |
- Schulze, Werner
- Wald, Michael
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
3 |
초록
▼
A force sensor with two force input elements to which the force to be measured and the support force are applied. The two force input elements are substantially rotationally symmetrical and are axially spaced apart, and the force to be measured and the support force are applied in a radial direction
A force sensor with two force input elements to which the force to be measured and the support force are applied. The two force input elements are substantially rotationally symmetrical and are axially spaced apart, and the force to be measured and the support force are applied in a radial direction. A spring element, arranged axially between the two force input elements connects these elements and its load-dependent deformation is converted into an electrical signal. A substantially tubular cover connected to one of the two force input elements surrounds the spring element. The cover surrounds a portion of the other force input element, forming a circumferential gap. The cover has an inwardly projecting constriction that is spaced apart by a small axial distance from an opposite shoulder on the other force input element.
대표청구항
▼
1. A force sensor, comprising:a substantially rotationally symmetric member having an axis, comprising: a first force input element for receiving a force to be measured applied in a first radial direction of the force sensor; a second force input element for receiving a support force applied in a se
1. A force sensor, comprising:a substantially rotationally symmetric member having an axis, comprising: a first force input element for receiving a force to be measured applied in a first radial direction of the force sensor; a second force input element for receiving a support force applied in a second radial direction of the force sensor, the second force input element axially spaced from the first force input element; a spring assembly disposed between the first force input element and the second force input element, the spring assembly integral with or mechanically coupled to the first force input element and the second force input element, and wherein deformation of the spring assembly is converted into a corresponding electrical signal; and a tubular cover coupled to one of the first force input element and the second force input element, the cover surrounding the spring assembly and covering at least a portion of the other force input element, leaving a circumferential gap between the cover and the other force input element; the cover comprising an inwardly projecting constriction that is spaced apart by an axial distance from an opposing shoulder of the other force input element, so that, in an event of a radial overload or an axial overload on the force sensor, the other force input element deflects and rests against a portion of the cover, the cover having adequate rigidity to transmit the overload between the one force input element and the other force input element. 2. The force sensor as claimed in claim 1, wherein the cover is screwed onto the one force input element as a cover sleeve.3. The force sensor as claimed in claim 1, wherein at least one of the force to be measured and the support force is applied to the cover.4. The force sensor as claimed in claim 1, wherein the circumferential gap is 0.2-0.5 mm wide.5. The force sensor as claimed in claim 1, wherein the cover is coupled to the second force input element, the second force input element is axially spaced apart from the first force input element, and the spring assembly is disposed axially between the first force input element and the second force input element.6. The force sensor as claimed in claim 5, wherein the cover extends axially beyond the second force input element and is a stop that restricts deflection of the first force input element by a distance corresponding to the circumferential gap.7. A force sensor, comprising:a member having an axis, comprising: a first force input element receiving a first force applied to the force sensor; a second force input element receiving a second force applied to the force sensor in a direction opposing the first force, the second force input element axially spaced from the first force input element; a spring assembly disposed between the first force input element and the second force input element, the spring integral with or mechanically coupled to the first force input element and the second force input element, and wherein deformation of the spring assembly is converted into a corresponding electrical signal; and a cover coupled to the first force input element, the cover surrounding the spring assembly and covering at least a portion of the second force input element, leaving a circumferential gap between the cover and the second force input element, so that when an overload force is applied to the force sensor, the second force input element deflects relative to the cover until the gap closes at at least one point and the second force input element abuts the cover, and wherein the cover has a higher rigidity than the spring assembly in a radial direction of the force sensor. 8. The force sensor as claimed in claim 7, wherein the cover comprises an inwardly projecting constriction that is spaced apart by an axial distance from an opposing face of the second force input element.9. The force sensor as claimed in claim 7, wherein the member is substantially symmetrical about the axis, and wherein the cover is tubular.10. The force sensor as claimed in claim 7, wherein the circumferential gap is about 0.2-0.5 mm wide.11. The force sensor as claimed in claim 7, wherein the second force input element is axially spaced apart from the first force input element and the spring assembly is disposed axially between the first force input element and the second force input element.12. The force sensor as claimed in claim 11, wherein the cover extends axially beyond the first force input element and is a stop that restricts deflection of the second force input element by a distance corresponding to the circumferential gap.
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